trac_ik_lib package from trac_ik repotrac_ik trac_ik_examples trac_ik_kinematics_plugin trac_ik_lib trac_ik_python |
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Package Summary
Tags | No category tags. |
Version | 2.0.1 |
License | BSD |
Build type | AMENT_CMAKE |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://bitbucket.org/traclabs/trac_ik.git |
VCS Type | git |
VCS Version | rolling-devel |
Last Updated | 2024-09-13 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- TRACLabs Robotics
Authors
- Patrick Beeson
- Barrett Ames
The TRAC-IK kinematics solver is built in trac_ik_lib as a .so library (this has been tested using ROS Indigo using Catkin). The headers and shared objects in this package can be linked against by user programs.
###As of v1.6.0, this package is part of the ROS Noetic binaries: sudo apt-get install ros-noetic-trac-ik
###As of v1.4.3, this package is part of the ROS Indigo/Jade binaries: sudo apt-get install ros-jade-trac-ik
This requires the Ubuntu packages for NLOpt Libraries to be installed (the
ros-indigo-nlopt packages do not use proper headers). This can be done by
running
sudo apt-get install libnlopt-dev
on the trusty (and later)
standard Ubuntu distros. Alternatively, you can run
```rosdep update &&
rosdep install trac_ik_lib
KDL IK:
```c++
KDL::ChainFkSolverPos_recursive fk_solver(chain);
KDL::ChainIkSolverVel_pinv vik_solver(chain);
KDL::ChainJntToJacSolver jac_solver(chain);
KDL::ChainIkSolverPos_NR_JL ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, fk_solver, vik_solver, int num_iterations, double error);
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: to use a timeout in seconds (e.g., 0.005), the iterations can be set to 1, and this can be called in a loop with your own timer.
% NOTE: error == 1e-5 is acceptable for most purposes
TRAC-IK:
#include <trac_ik/trac_ik.hpp>
TRAC_IK::TRAC_IK ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% OR
TRAC_IK::TRAC_IK ik_solver(string base_link, string tip_link, string URDF_param="/robot_description", double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% NOTE: The last arguments to the constructors are optional.
% The type can be one of the following:
% Speed: returns very quickly the first solution found
% Distance: runs for the full timeout_in_secs, then returns the solution that minimizes SSE from the seed
% Manip1: runs for full timeout, returns solution that maximizes sqrt(det(J*J^T)) (the product of the singular values of the Jacobian)
% Manip2: runs for full timeout, returns solution that minimizes the ratio of min to max singular values of the Jacobian.
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints, KDL::Twist tolerances);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: tolerances on the end effector pose are optional, and if not
% provided, then by default are 0. If given, the ABS() of the
% values will be used to set tolerances at -tol..0..+tol for each of
% the 6 Cartesian dimensions of the end effector pose.
Changelog for package trac_ik_lib
2.0.1 (2024-04-12)
- Add missing geometry_msgs dependency in package.xml
- Contributors: Kenji Brameld
2.0.0 (2024-03-29)
- change nanoseconds() to seconds()
- remove boost from trac_ik_lib and trac_ik_kinematics_plugin
- Added support for C++17
- added build_export_depends to tracik_lib for nlopt
- fix issues caused by shared references and thread safety
- hotfix for init of solvers using non-thread-safe KDL::Chain
- Contributors: Ana C. Huaman Quispe, Kenji Brameld, Mike Lanighan, Stephen Hart
1.6.6 (2021-05-05)
1.6.4 (2021-04-29)
- added nlopt depends to traciklib cmake
- Contributors: Stephen Hart
1.6.2 (2021-03-17)
Wiki Tutorials
Dependant Packages
Launch files
Messages
Services
Plugins
Recent questions tagged trac_ik_lib at Robotics Stack Exchange
trac_ik_lib package from trac_ik repotrac_ik trac_ik_examples trac_ik_kinematics_plugin trac_ik_lib trac_ik_python |
|
Package Summary
Tags | No category tags. |
Version | 2.0.1 |
License | BSD |
Build type | AMENT_CMAKE |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://bitbucket.org/traclabs/trac_ik.git |
VCS Type | git |
VCS Version | rolling-devel |
Last Updated | 2024-09-13 |
Dev Status | DEVELOPED |
CI status | No Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- TRACLabs Robotics
Authors
- Patrick Beeson
- Barrett Ames
The TRAC-IK kinematics solver is built in trac_ik_lib as a .so library (this has been tested using ROS Indigo using Catkin). The headers and shared objects in this package can be linked against by user programs.
###As of v1.6.0, this package is part of the ROS Noetic binaries: sudo apt-get install ros-noetic-trac-ik
###As of v1.4.3, this package is part of the ROS Indigo/Jade binaries: sudo apt-get install ros-jade-trac-ik
This requires the Ubuntu packages for NLOpt Libraries to be installed (the
ros-indigo-nlopt packages do not use proper headers). This can be done by
running
sudo apt-get install libnlopt-dev
on the trusty (and later)
standard Ubuntu distros. Alternatively, you can run
```rosdep update &&
rosdep install trac_ik_lib
KDL IK:
```c++
KDL::ChainFkSolverPos_recursive fk_solver(chain);
KDL::ChainIkSolverVel_pinv vik_solver(chain);
KDL::ChainJntToJacSolver jac_solver(chain);
KDL::ChainIkSolverPos_NR_JL ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, fk_solver, vik_solver, int num_iterations, double error);
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: to use a timeout in seconds (e.g., 0.005), the iterations can be set to 1, and this can be called in a loop with your own timer.
% NOTE: error == 1e-5 is acceptable for most purposes
TRAC-IK:
#include <trac_ik/trac_ik.hpp>
TRAC_IK::TRAC_IK ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% OR
TRAC_IK::TRAC_IK ik_solver(string base_link, string tip_link, string URDF_param="/robot_description", double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% NOTE: The last arguments to the constructors are optional.
% The type can be one of the following:
% Speed: returns very quickly the first solution found
% Distance: runs for the full timeout_in_secs, then returns the solution that minimizes SSE from the seed
% Manip1: runs for full timeout, returns solution that maximizes sqrt(det(J*J^T)) (the product of the singular values of the Jacobian)
% Manip2: runs for full timeout, returns solution that minimizes the ratio of min to max singular values of the Jacobian.
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints, KDL::Twist tolerances);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: tolerances on the end effector pose are optional, and if not
% provided, then by default are 0. If given, the ABS() of the
% values will be used to set tolerances at -tol..0..+tol for each of
% the 6 Cartesian dimensions of the end effector pose.
Changelog for package trac_ik_lib
2.0.1 (2024-04-12)
- Add missing geometry_msgs dependency in package.xml
- Contributors: Kenji Brameld
2.0.0 (2024-03-29)
- change nanoseconds() to seconds()
- remove boost from trac_ik_lib and trac_ik_kinematics_plugin
- Added support for C++17
- added build_export_depends to tracik_lib for nlopt
- fix issues caused by shared references and thread safety
- hotfix for init of solvers using non-thread-safe KDL::Chain
- Contributors: Ana C. Huaman Quispe, Kenji Brameld, Mike Lanighan, Stephen Hart
1.6.6 (2021-05-05)
1.6.4 (2021-04-29)
- added nlopt depends to traciklib cmake
- Contributors: Stephen Hart
1.6.2 (2021-03-17)
Wiki Tutorials
Dependant Packages
Launch files
Messages
Services
Plugins
Recent questions tagged trac_ik_lib at Robotics Stack Exchange
trac_ik_lib package from trac_ik repotrac_ik trac_ik_examples trac_ik_kinematics_plugin trac_ik_lib trac_ik_python |
|
Package Summary
Tags | No category tags. |
Version | 1.6.6 |
License | BSD |
Build type | CATKIN |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://bitbucket.org/traclabs/trac_ik.git |
VCS Type | git |
VCS Version | master |
Last Updated | 2024-10-08 |
Dev Status | DEVELOPED |
CI status | Continuous Integration |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- TRACLabs Robotics
Authors
- Patrick Beeson
- Barrett Ames
The TRAC-IK kinematics solver is built in trac_ik_lib as a .so library (this has been tested using ROS Indigo using Catkin). The headers and shared objects in this package can be linked against by user programs.
###As of v1.6.0, this package is part of the ROS Noetic binaries: sudo apt-get install ros-noetic-trac-ik
###As of v1.4.3, this package is part of the ROS Indigo/Jade binaries: sudo apt-get install ros-jade-trac-ik
This requires the Ubuntu packages for NLOpt Libraries to be installed (the
ros-indigo-nlopt packages do not use proper headers). This can be done by
running
sudo apt-get install libnlopt-dev
on the trusty (and later)
standard Ubuntu distros. Alternatively, you can run
```rosdep update &&
rosdep install trac_ik_lib
KDL IK:
```c++
KDL::ChainFkSolverPos_recursive fk_solver(chain);
KDL::ChainIkSolverVel_pinv vik_solver(chain);
KDL::ChainJntToJacSolver jac_solver(chain);
KDL::ChainIkSolverPos_NR_JL ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, fk_solver, vik_solver, int num_iterations, double error);
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: to use a timeout in seconds (e.g., 0.005), the iterations can be set to 1, and this can be called in a loop with your own timer.
% NOTE: error == 1e-5 is acceptable for most purposes
TRAC-IK:
#include <trac_ik/trac_ik.hpp>
TRAC_IK::TRAC_IK ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% OR
TRAC_IK::TRAC_IK ik_solver(string base_link, string tip_link, string URDF_param="/robot_description", double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% NOTE: The last arguments to the constructors are optional.
% The type can be one of the following:
% Speed: returns very quickly the first solution found
% Distance: runs for the full timeout_in_secs, then returns the solution that minimizes SSE from the seed
% Manip1: runs for full timeout, returns solution that maximizes sqrt(det(J*J^T)) (the product of the singular values of the Jacobian)
% Manip2: runs for full timeout, returns solution that minimizes the ratio of min to max singular values of the Jacobian.
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints, KDL::Twist tolerances);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: tolerances on the end effector pose are optional, and if not
% provided, then by default are 0. If given, the ABS() of the
% values will be used to set tolerances at -tol..0..+tol for each of
% the 6 Cartesian dimensions of the end effector pose.
Changelog for package trac_ik_lib
1.6.6 (2021-05-05)
1.6.4 (2021-04-29)
- added nlopt depends to traciklib cmake
- Contributors: Stephen Hart
1.6.2 (2021-03-17)
Wiki Tutorials
Dependant Packages
Launch files
Messages
Services
Plugins
Recent questions tagged trac_ik_lib at Robotics Stack Exchange
trac_ik_lib package from trac_ik repotrac_ik trac_ik_examples trac_ik_kinematics_plugin trac_ik_lib trac_ik_python |
|
Package Summary
Tags | No category tags. |
Version | 1.6.6 |
License | BSD |
Build type | CATKIN |
Use | RECOMMENDED |
Repository Summary
Checkout URI | https://bitbucket.org/traclabs/trac_ik.git |
VCS Type | git |
VCS Version | master |
Last Updated | 2024-10-08 |
Dev Status | DEVELOPED |
CI status | Continuous Integration : 0 / 0 |
Released | RELEASED |
Tags | No category tags. |
Contributing |
Help Wanted (0)
Good First Issues (0) Pull Requests to Review (0) |
Package Description
Additional Links
Maintainers
- TRACLabs Robotics
Authors
- Patrick Beeson
- Barrett Ames
The TRAC-IK kinematics solver is built in trac_ik_lib as a .so library (this has been tested using ROS Indigo using Catkin). The headers and shared objects in this package can be linked against by user programs.
###As of v1.6.0, this package is part of the ROS Noetic binaries: sudo apt-get install ros-noetic-trac-ik
###As of v1.4.3, this package is part of the ROS Indigo/Jade binaries: sudo apt-get install ros-jade-trac-ik
This requires the Ubuntu packages for NLOpt Libraries to be installed (the
ros-indigo-nlopt packages do not use proper headers). This can be done by
running
sudo apt-get install libnlopt-dev
on the trusty (and later)
standard Ubuntu distros. Alternatively, you can run
```rosdep update &&
rosdep install trac_ik_lib
KDL IK:
```c++
KDL::ChainFkSolverPos_recursive fk_solver(chain);
KDL::ChainIkSolverVel_pinv vik_solver(chain);
KDL::ChainJntToJacSolver jac_solver(chain);
KDL::ChainIkSolverPos_NR_JL ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, fk_solver, vik_solver, int num_iterations, double error);
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: to use a timeout in seconds (e.g., 0.005), the iterations can be set to 1, and this can be called in a loop with your own timer.
% NOTE: error == 1e-5 is acceptable for most purposes
TRAC-IK:
#include <trac_ik/trac_ik.hpp>
TRAC_IK::TRAC_IK ik_solver(KDL::Chain chain, KDL::JntArray lower_joint_limits, KDL::JntArray upper_joint_limits, double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% OR
TRAC_IK::TRAC_IK ik_solver(string base_link, string tip_link, string URDF_param="/robot_description", double timeout_in_secs=0.005, double error=1e-5, TRAC_IK::SolveType type=TRAC_IK::Speed);
% NOTE: The last arguments to the constructors are optional.
% The type can be one of the following:
% Speed: returns very quickly the first solution found
% Distance: runs for the full timeout_in_secs, then returns the solution that minimizes SSE from the seed
% Manip1: runs for full timeout, returns solution that maximizes sqrt(det(J*J^T)) (the product of the singular values of the Jacobian)
% Manip2: runs for full timeout, returns solution that minimizes the ratio of min to max singular values of the Jacobian.
int rc = ik_solver.CartToJnt(KDL::JntArray joint_seed, KDL::Frame desired_end_effector_pose, KDL::JntArray& return_joints, KDL::Twist tolerances);
% NOTE: CartToJnt succeeded if rc >=0
% NOTE: tolerances on the end effector pose are optional, and if not
% provided, then by default are 0. If given, the ABS() of the
% values will be used to set tolerances at -tol..0..+tol for each of
% the 6 Cartesian dimensions of the end effector pose.
Changelog for package trac_ik_lib
1.6.6 (2021-05-05)
1.6.4 (2021-04-29)
- added nlopt depends to traciklib cmake
- Contributors: Stephen Hart